SU414655A1 - - Google Patents

Description

I

The invention relates to gas discharge devices in which a discharge is excited in hydrogen or deuterium by means of a constant voltage applied to the electrodes, in particular to gas discharge spectral lamps, and lateral side radiation output. Such lamps are sources of continuous ultraviolet radiation and are intended for use primarily with spectrophotometers and also as a spectator for the atmospheric sun.

The well-known hydrogen n-deterium gas discharge lamps, the bulb of which is made of quartz glass n p, has a window on the side that is transparent in the ultraviolet region. This flask is sealed with a leg, which consists of several independent quartz bushings with flat out molybdenum foil laid perpendicular to the quartz circular plate along the bottom of the |) y, which contains an anode enclosed in a metal case and an oxide cathode directly lacalla outside metal case. The housing together with the vitrified anode input shields the anode of the cathode arc, leaving a hole for discharge, in front of which a metal diaphragm is attached to the resistance welding housing. In front of this diaphragm there is a valve with a large orifice in order not to block the radiation, which is welded together with two brackets, a housing, a metal bracket and one 13 cathode leads, forming a compartment for the cathode and protecting the window from the pulsed cathode and DnA. A constant voltage is applied to the anode to the wall, and when the cathode is heated, there is a discharge in the gas between the eletrodamn, passing through the hole in the diaphragm.

Such lamiy komiakt, s, and consume a small MOHiHOCTb, however, they have the disadvantage of considerable labor-intensiveness during assembly, which is associated with a large number of components of the lamp.

The purpose of the invention is to simplify the choice of the lamp for the preservation of the side radiation output, thereby reducing the possibility of using the advanced lamp in industrial spectrophotometers.

The problem is solved by making a screen in the gas discharge spectral source of ultraviolet radiation in the form of a 7-plate 110p plate that runs up into a bulb, the vertical shelf of which with the diaphragm fixed on it is positioned parallel to the axis of the lamp and the window plane and strengthened, at least, one. m of inputs. Two horizontal stitches of the specified screen are turned under the right

The central part has anti-negative sides and has the shape of semicircles with a total area almost equal to the circular section of the flask, ensuring the separation of the volume of the flask into equal anodic and cathodic chambers. To allow the anode to be located between the window and the screen, the bottom shelf of the said Z-shaped plate is turned toward the window and has a hole for an insulated anode current lead. It is advisable that the input on which the screen is mounted is left electrically neutral.

In the drawing, a nokazap proposed gas discharge spectral source of ultraviolet radiation.

The flask bottom / is made of quartz glass and has a side window 2 of quartz glass, which transmits ultraviolet radiation up to 1600 A °. The flask / sealed leg 3 with four inputs and filled with hydrogen or deuterium under a pressure of 6-8 mm. Hg Art. Screen 4, made in the form of a Z-shaped nickel plate resting against the walls of flask 1, is connected by its vertical shelf 5 with electrically neutral input 6 of leg 3. Two horizontal shelves 7 and S of screen 4 are turned in opposite directions at a right angle to the plane of the shelf 5, with the bottom shelf 8 turned toward window 2, and shelf 5 parallel to the plane of window 2. Shelves 7 and 5 are shaped like semi-circles with a total area almost equal to the circular area of the bulb /. In shelf 5, there is a hole through which vitrified anode inlet 9 passes. On the latter, an anode 10 is fixed, which is parallel to window 2 and has a large hole, blocking radiation. Screen 4, together with a vitrified anodny input, m 9 ensures the separation of the flask volume into equal anode and cathode chambers,

leaving a round hole for passage of the discharge, coaxial to the hole in the anode 10, in front of which a molybdenum diaphragm 11 is attached to the screen 4 by contact welding. At the inputs 12 and 13, the oxide cathode 14 is directly heated and slightly displaced. relative to the opening of the diaphragm so that from the side of the window 2 it was not visible in the specified hole. A constant voltage is applied to the anode 10 and the cathode 14, and when the cathode 14 is heated, a discharge occurs. The location of the discharge drop is almost entirely on the axis passing through the center of the anode hole and the center of the window, .2, increasing the capacitance. d. lamps as compared to lamps with a curved discharge channel.

Nredmet of the invention

Claims (2)

1. A gas-discharge spectral source of ultraviolet radiation, whose quartz bulb, filled with deuterium or hydrogen, has a side window for exit of radiation, is sealed with a foot and contains an anode located in front of this window, a cathode located in the cathode chamber, and a screen separating said chambers, characterized in that, in order to simplify the construction and increase the efficiency, the screen is designed as a Z-shaped plate resting against the walls of a flask, the middle vertical shelf of which is fixed On it, the diaphragm is located parallel to the source axis and the window plane, and its two horizontal shelves are turned at right angles to the middle shelf in opposite directions and have the shape of semicircles with a total area almost equal to the cross-sectional area of the bulb. 2. The gas-discharge spectral source according to claim 1, characterized in that the screen is fixed on an electrically neutral input.